Abstract
Fructans are known to occur in 15% of flowering plants and their accumulation is often associated with stress responses. Typically, particular fructan types occur within particular plant families. The family of the Buxaceae, harboring Pachysandra terminalis, an accumulator of graminan- and levan-type fructans, also harbors boxtree (Buxus sempervirens), a cold and drought tolerant species. Surprisingly, boxtree leaves do not accumulate the expected graminan- and levan-type fructans, but small inulin fructo-oligosaccharides (FOS: 1-kestotriose and nystose) and raffinose family oligosaccharides (RFOs: raffinose and stachyose) instead. The seasonal variation in concentrations of glucose, fructose, sucrose, FOS and RFOs were followed. Raffinose and stachyose peaked during the winter months, while FOS peaked at a very narrow time-interval in spring, immediately preceded by a prominent sucrose accumulation. Sucrose may function as a reserve carbohydrate in winter and early spring leaves. The switch from RFO to fructan metabolism in spring strongly suggests that fructans and RFOs fulfill distinct roles in boxtree leaves. RFOs may play a key role in the cold acclimation of winter leaves while temporal fructan biosynthesis in spring might increase sink strength to sustain the formation of new shoots.
Highlights
IntroductionThe first fructan (polyfructosylsucrose) ever discovered was inulin, derived from the rhizomes of Inula helenium, a flowering plant (Rose, 1804)
The first fructan ever discovered was inulin, derived from the rhizomes of Inula helenium, a flowering plant (Rose, 1804)
We show here for the first time that both inulin-type FOS as well as Raf and Sta accumulate in boxtree leaves at different times in the season, strongly suggesting that both types of soluble oligosaccharides fulfill distinct physiological roles
Summary
The first fructan (polyfructosylsucrose) ever discovered was inulin, derived from the rhizomes of Inula helenium, a flowering plant (Rose, 1804). Since they were observed in flowering plants, but were found to be widespread in bacteria. About 45,000 species of angiosperms, approximately 15% of the flowering plants, store fructans (Hendry, 1993). Fructans are watersoluble oligo- and polysaccharides (Wiemken et al, 1986) that are known to occur in the highly evolved orders of the Poales (Poaceae), Liliales (Liliaceae), Asparagales (Alliaceae, Asparagaceae), Asterales (Asteraceae and Campanulaceae), and in the Boraginaceae (Hendry, 1993). One representative of the Buxaceae, Pachysandra terminalis (Japanese Spurge), was identified as a fructan accumulator (Van den Ende et al, 2011)
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